Creative Construction Set Additional Accessories

ABSTRACT

The invention is a cost effective, structural building set, suitable as a toy, using post connectors ( 10 ) comprised of a post ( 12 ) with attached disks ( 14 ), or similar devices that insert into cutouts ( 31 ) in geometric shaped component parts ( 30, 80 ). More than one component part can be connected to the same post connector, and such component parts can rotate relative to the post axis. The connector design allows construction of stable structures of many sizes, shapes, and types, and readily facilitates hinging between different sections of such assembled structures. Many variations of the invention are possible, including connection with other types of construction elements ( 530, 570, 580, 584, 602, 640 ), structural element figurines ( 900 ), spinors, ( 512 ), various shape post connectors ( 612, 618, 620, 611 ) and faceplates ( 632 ), blocks ( 550 ), faceplates ( 576 ), lenses ( 590 ), catapult/slingshot ( 680 ), periscope mirrors ( 660 ), tubes ( 672 ), wheels ( 925 ), spherical elements ( 915 ), figurines ( 900 ), animal parts ( 944, 947, 950 ), and plane parts ( 954, 955 ) and more.

CROSS-REFERENCE TO RELATED APPLICATIONS

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REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISC APPENDIX BACKGROUND OF THE INVENTION

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BACKGROUND OF THE INVENTION Field of the Invention

This invention relates to creative accessories and modifications to a construction set known commercially as Swivel-Snaps, described in WO 2011/143019, PCT/SU2011/035107, U.S. Pat. No. 9,669,324, and other daughter/sister patents and patent applications in the USA and elsewhere, that provide additional advantages to users beyond that of the construction set invention shown in the afore cited documents.

Description of Related Art

Prior art for the Swivel-Snaps invention is described in the afore cited patent(s)/application(s). None show accessories or modifications to that invention similar to those shown herein.

FIG. 1 shows a post connector 10 for the preferred embodiment of the Swivel-Snaps invention. FIG. 2 illustrates one type of component part, the triangle component 30. FIG. 3 depicts a post connector 10 and a triangle component part 30 connected together. FIG. 4 shows two such triangle components 30 connected to a single post connector 10.

The post connector 10 in the preferred Swivel-Snaps embodiment of FIG. 1 comprises a post 12 of essentially rod-like shape with one or more disks 14 attached to, or integral with, the post 12, wherein the axes of the post 12 and the disk(s) 14 are essentially co-axial. In the preferred, and some other embodiments, the post connector may also comprise a cylindrical, or quasi-cylindrical, section, deemed herein, the connector guide 16. The axis of connector guide 16 can be essentially co-axial with the axis of the post 12. The term quasi-cylindrical, as used herein, refers to a shape, such as that shown for the connector guide 16 in FIG. 1, which has a non-purely cylindrical surface on what would otherwise be a cylinder. For example, a quasi-cylindrical shape can be considered to be what was originally a cylinder but which has had its surface indented, protruded, curved, and/or perforated.

In FIG. 1, the connector guide 16 is quasi-cylindrical, having a concave, indented surface, and said surface has perforations, including radially directed holes going completely through from one side to the other. Such holes can be filled with an overmould of rubber, plastic, metallic or other material, and said overmould can be solid or hollow. These perforations, and indentions, are not necessary for the functioning of the invention, but can add visual appeal, as well as desirable features.

The connector guide 16 is a means to guide the connection between the post connector and a component part. It can also be a means to stabilize, align, and/or strengthen the connection, though it is not necessary to the invention.

The disk(s) 14 and/or the connector guide 16 can be attached via any means to the post 12, or alternatively, one or more of them can be an integral part, along with post 12, of the post connector 10, such as could be accomplished by casting, injection molding, or other processes. Although the post 12 is shown extending outside of the disks 14, it is not necessary to the invention for it to do so. In any embodiment, post 12 only needs to support one or more disks 14 (or a means to connect the post to a component part), and that is what the invention comprises.

Component parts, such as triangle component 30 of FIG. 2, have cutouts, typically but not necessarily along their edges, into which portions of the post connector 10 can be inserted. Such cutouts comprise disk cutout(s) 31 and connector guide cutout 34. When portions of the post connector 10, such as disk(s) 14 and/or connector guide 16 are inserted into respective cutouts 31 and/or 34, the post connector 10 and the component part (triangle part 30 here) become connected. See FIG. 3. These cutouts can be large enough to permit rotation of a post connector 10 angularly about its long axis, relative to a component part (30 here). In fact, this is often desired, as it permits a hinging motion between the two parts, and as well, between sections of any further greater assemblies comprised of more post connectors and component parts. Alternatively, the cutouts can be small enough, or deliberately shaped, relative to the size of disk(s) 14 and/or connector guide 16, to effectively resist such angular motion and provide a non-hinge type of connection. Other kinds of restrictions, well known to those skilled in the art, can be used to provide a non-hinging connection, as well, and these are comprised by the invention.

Relief cutout(s) 32 can be used to enable easier snapping of a post connector 10 to a component part (30 in FIG. 2), and removal of same, while also providing a hard stop to prevent over-traveling the beam and potentially crack the latch member. Such relief cutouts are employed in this embodiment, but are not a necessary element of the invention. The connector guide cutout 34 is shown in FIG. 2 as straight and parallel to the triangle edge direction, but any suitable cutout is comprised by the invention. For best hinging effect, one or more of the cutout surfaces 36, 37, 38, 39, and 40 may be arc-like, to match the typically circular edges of post 12, disk(s) 14 and connector guide 16. However, any suitable geometry of such surface(s) is comprised by the invention, and none of those surfaces have to contact any portion of post connector 10.

Latch element 33, a cantilever employed in this embodiment, forms a latch with disk 14. One way it can do this is via the “bump” or “lip” 41, shown in FIG. 2, which snaps over the outer part of disk 14. Latch element 33, in this embodiment, is also arc-like along its inner facing side in FIG. 2 to match the profile of disk 14. This provides for more fluid hinging, though it is not necessary for the functioning of the invention. Latch element 33, although shown as a cantilever, can also be a raised dot, or bump, or in fact, anything that serves the same purpose as latch element 33 shown herein. Further, the latching element may be on the opposite side of disk cutout 31 (i.e., on the inner surface of cutout 38, the side closer to connector guide cutout 34). Still further, latching elements may be on both sides of the cutout.

Element 14 comprises a geometric form that includes non-disk, as well as disk shapes, and shall be deemed herein a “cutout insertable element”. Thus, the cutout insertable element shall be considered represented by the number 14 in all figures, although in the preferred embodiment of FIGS. 1 to 3, it is disk-like. When the cutout insertable element is disk-like in shape, or an arc section of a full disk, we shall refer to it as a “disk”. When such disk extends over a full 360°, we may sometimes refer to it as a “complete disk”, or “360° disk”. The cutout insertable element may be considerably thicker than the disk 14 shown in the figures, and may even be longer in the axial direction than its own diameter (or width in direction perpendicular to the axial.)

Holes 35 in the corners of triangle component part 30 are not essential to the functioning of the invention, but may aid with embellishments in certain embodiments of the invention. Also, holes 35 can be the same diameter as post 12 to enable mounting of post connectors 10, via their ends, into said holes.

FIG. 4 shows two triangle parts 30 connected to a single post connector 10. For appropriate cutout to post connector portion tolerances, the two triangle parts can move angularly about the post connector, with respect to one another.

FIG. 5 depicts a square component part 80 connected to a post connector 10. Square component 80 has cutouts like those shown for triangle component 30, to facilitate connection with post connector(s) 10.

FIG. 6 shows a faceplate 70 that can be inserted into a triangle component part 30 for the purpose of stiffening/strengthening the triangle component, for visual appeal, and/or for attaching post connector(s), other faceplate(s), pictures, decals, other component part(s), or any device that enhances the invention. The faceplate 70 displayed in FIG. 7 has an optional hole 72, which may, but does not necessarily have to, be in the center of the faceplate. In other configurations, there may be more than one hole, and any hole does not have to be circular, but can be any shape. The post portion of a post connector may be inserted into such hole, and such insertion can be snug enough to permit the post connector to be a part of an assembly of post connector(s) and component part(s). Other items, such as, but not limited to, a wheel axle, flower (artificial or real), rod, lollipop, flag, LED, and toy figure may be inserted into the hole, as well, or in lieu of the post connector.

Faceplates can also have cutouts or raised areas for the letters of the alphabet, numbers, words, etc., allowing children to study and/or snap together their ABC's, name, party invitation, age, etc. Any faceplate embellishments, such as those described herein or otherwise, can extend beyond the plane, and/or also beyond the edge(s), of any component part. Further, they can be quite thick and/or have hollow regions that may be filled with any number of items, such as, but not limited to, live fish, candy, glitter, lava lamp goo, etc. They can comprise, or allow attachment of, 3D items of many kinds. That is, faceplates can extend upward in the vertical direction of FIG. 7 to any reasonable height, and can extend sideways (sideways as seen in FIG. 7) to any reasonable extent. (See FIG. 43.) They can have knobs, plugs, or other means, threaded or otherwise, to attach any number of different items to them.

Both of the words “faceplate” and “facemount” may refer herein to devices that are either significantly extended in the vertical direction (away from a component face) or thin in the vertical direction (i.e., platelike.)

FIG. 7 depicts the faceplate 70 inserted into the triangle component 30. Although the discussion of FIGS. 6 and 7 focus on holding the faceplate by its sides onto the component part, the component part can attach to some other region of the component part. For example, the component part may be solid in the middle with a knob or other protrusion onto which a hole in the faceplate fits. Alternatively, the faceplate may a have a knob or other protrusion which fits into a hole in the component part. Any means to hold a faceplate snugly in the triangle, or any other shape, component part, including simple snaps well known to those skilled in the art, is comprised by the invention.

Faceplates can be employed in square or any other shape component parts in the same fashion as described above for triangle component parts, and wherever the words triangle or triangular are used herein with respect to faceplates, the word “square” may be substituted and the result comprise the Swivel-Snaps invention.

The invention comprises decals, paintings, laser markings, pictures, flags, mirrors, tattoos, hand written sheets, and similar items attached to the faceplates, though these are not necessary. The invention comprises any of the items discussed anywhere herein as being attachable to a faceplate, as being also attachable to a component part and/or a post connector.

FIG. 8 shows a post connector 10 with a single sphere 20 attached to one end. FIG. 9 shows a post connector with two such spheres, one on either end. Such spheres 20 may be rubber, plastic, wood, metal, or any suitable material. They may attach to the post connector 10 via any means, many of which are well known to those skilled in the art. Alternatively, the spheres 20 could be manufactured as an integral part of the post connector 20 when the post connector is made, via casting, injection molding, or similar process.

Alternatively, any suitable object or device may be attached to, or inserted into, the end of a post connector 10. These include, but are not limited to, hooks, screw eyes, suction cups, threaded rods, magnets, whistles, springs, hinges, toys, toy figures, lollipops, wheel axles, flowers (artificial or real), flashlights, LEDs, and bubble wands.

The Swivel-Snaps invention comprises square component 80 as well as all possible geometric shapes configured, as parts 30 and 80 are, to connect with a post connector 10. These other possible component part shapes include, but are not limited to, rectangles, parallelograms, pentagons, hexagons, all other polygons, circles, ovals, all other effectively 2D (thin in one dimension) shapes, rectangular solids, tetrahedrons, spheres, ovoids, all other 3D solids, and portions/sections of any of the foregoing.

With these various types of component parts, a user of the invention can create innumerable different types and sizes of structures. One can connect components of different types together. For example, the triangle component part 30 can be connected along an edge to a square component part 80 via the same post connector 10. Boxes, homelike structures, pyramids, geometric forms of many diverse kinds, animal and bird models, dinosaurs (such as pterodactyls), and more are possible. The nature of the connections made between the post connectors 10 and component parts will provide significant stability and durability to these structural creations.

Given the swinging (i.e., hinge) capability of the connection between post connector 10 and component part, any component part in any structure can be configured to swing open or closed. This can provide a door, which can be opened and closed, for house-like structures, hinged lids for boxes/chests, model window shutters, book binders, and much more.

FIG. 10 shows square component parts 80 connected via post connectors 10 to form a box (cube type of rectangular solid with one face hinged open in FIG. 10). This box has a swinging top (lid) that opens and closes because it swings freely about a post connector, while the other parts of the box remain stationary. Of course, any face of the box, not just the top, may be used for swinging open and closed while the others remain fixed, and more than one face may swing open, as well.

Faceplates such as, but not limited to, 70 and 84 do not need to snap firmly into place and be held tightly by their associated component part (30 and 80 in the figures). Rather, they could be attached along their outer edge to the inner edge of a component part via a post connector 10 or any other form of removable connection. This would permit hinging or removal of the faceplates with respect to their associated component parts, and thereby provide for greater creative expression by children using the invention. Such faceplates could then become doors to house-like structures, lids for boxes, etc.

OBJECTS AND ADVANTAGES OF THE INVENTION

Accordingly, several objects and advantages of the present invention are to provide greater stability, strength, flexibility, and/or ease of assembly of 2D and 3D structures, typically in construction assemblies, over those of prior art. Other objects and advantages comprise greater flexibility in types of structures, including, but not limited to, integration of Swivel-Snaps with other construction assembly kits such as Lego, K′Nex, and others, as well as integration with other toys and devices such as spinners, piggy banks, massagers, magnifying lens, art supplies, rails, periscopes, and more. Still other objects and advantages comprise new type component parts, means for building different types of creations, and more, for Swivel-Snaps. Among other things, these objects and advantages, as well as others, provide greater utility, enjoyment, and creative possibilities for users.

These and other aspects of the invention discussed below provide significant benefits and advantages over prior art. Further objects and advantages of the invention will become apparent from a consideration of the ensuing description of it.

BRIEF SUMMARY OF THE INVENTION

The present invention provides significant advantages over prior art structural building systems by utilizing the following unique embodiments for use with Swivel-Snaps.

Piggy bank made from Swivel-Snaps, spinner attached, Lego studs and Lego holes in Swivel-Snaps parts/connectors/faceplates, integration options with Duplo/Bristle Blocks/K′Nex/magnets/Lego/etc., half/partial component part faces (Lego on sides or edges), rails (for example, around elongated “post”; Mobius strip as one embodiment), interior/exterior blocks (for axles, for example), periscope, unique faceplates (smell, Velcro, hole for post ball, chalk board surface, paint surface, white board surface), lens magnifier, triangles in corners of constructions, post connector art supplies, double component part, Swivel-Snaps gears, fabric or elastic faceplates (trampoline effect), and tubes through which marbles, balls, or other objects can pass connected to Swivel-Snaps elements. The invention also comprises wheel attachments, spherical object elements, construction figurines, and mock animal elements.

The invention, in its various embodiments, provides numerous advantages over prior art in a superior and wholly satisfactory manner.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts one embodiment of the post connector of the Swivel-Snaps invention.

FIG. 2 illustrates a triangle shaped component part of the Swivel-Snaps invention.

FIG. 3 shows an embodiment with post connector and a triangle component attached together of the Swivel-Snaps invention.

FIG. 4 depicts a post connector attached together with two triangle components of the Swivel-Snaps invention.

FIG. 5 shows a square component part with a post connector attached of the Swivel-Snaps invention.

FIG. 6 shows a faceplate for a triangular component part with an optional hole of the Swivel-Snaps invention.

FIG. 7 shows a faceplate inserted into a triangular component part of the Swivel-Snaps invention.

FIG. 8 illustrates a single sphere mounted on the end of a post connector of the Swivel-Snaps invention.

FIG. 9 depicts a post connector with spheres on each end in the Swivel-Snaps invention.

FIG. 10 shows a cubic rectangular solid made from square component parts and post connectors in the Swivel-Snaps invention.

FIG. 11 displays a square component part with a faceplate having a slot in the center for coins to pass through.

FIG. 12 illustrates the combination of a spinner with Swivel-Snaps.

FIG. 13 shows Lego studs and holes in Swivel-Snaps faceplates, component parts, and post connectors.

FIG. 14 depicts several different types of connecting mechanisms used in commercially sold toys incorporated into Swivel-Snaps elements.

FIG. 15 shows different types of connecting mechanisms used in commercially sold toys incorporated into one, or a few, sides of Swivel-Snaps component parts.

FIG. 16 depicts rails incorporated into a Swivel-Snaps connector.

FIG. 17 shows a component part sliding on rails incorporated into a Swivel-Snaps connector.

FIG. 18 illustrates a curved rail Swivel-Snaps connector.

FIG. 19 shows a few different ways the rail Swivel-Snaps connector can be shaped.

FIG. 20 depicts a railed Swivel-Snaps connector using posts and less material.

FIG. 21 shows a block attached to a Swivel-Snaps component part that can add strength to constructions.

FIG. 22 demonstrates some unique types of faceplates.

FIG. 23 displays a faceplate with a magnifying lens.

FIG. 24 shows art supplies incorporated into a Swivel-Snaps connector.

FIG. 25 depicts a fabric or elastic material faceplate.

FIG. 26 shows a double length component part.

FIG. 27 illustrates a gear and how it can engage with a Swivel-Snaps construction to provide motion and/or drive.

FIG. 28 displays a right isosceles triangle support.

FIG. 29 depicts a periscope with mirror faceplate polyhedrons inside a tube made of Swivel-Snaps elements.

FIG. 30 shows an assembly whereby marbles or other balls may slide inside tubes of Swivel-Snaps constructions.

FIGS. 31 to 34 display a wheel, wheel assembly, and attachment to component parts to permit building of a vehicle, or used horizontally as a spinner or carousel.

FIGS. 35 to 38 show a means for constructing a quasi-spherical object.

FIGS. 39 to 43 depict a construction figurine.

FIGS. 44 to 48 illustrate various mock animals that can be constructed from sub-elements.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 to 10 show various elements, embodiments, and configurations of the Swivel-Snaps invention cited in the preamble. FIG. 10 shows a rectangular solid made of square Swivel-Snaps component parts and post connectors. The present invention is a supplemental, i.e., “add-on” feature and/or a modification of the Swivel-Snaps invention.

The component part of FIG. 11, with a slot 502 in the faceplate 84 in the middle of the component part 80 may be used for one of the component parts 80 in FIG. 10. Thereby the resulting structure can be used, with the top component part 80 in FIG. 10 connected via post connectors 10 such that the resulting structure is a closed rectangular solid (a cube in the embodiment of FIG. 10), as a “piggy bank”, i.e., a means for saving coins and bills, a personal savings bank. The component parts 80 shown as squares can be any suitable shape, and the piggy bank could thus be any possible 3D solid shape, not necessarily a cube. Some possible such shapes include a pyramid, a ball, an animal such as a pig, horse, or duck, a wheel or more, Instead of faceplates 84, the component parts can be solid or nearly solid, across the middle portion with a slot 502 in the middle portion. In essence, the user can create a custom piggy bank.

As storage needs increase, the user can simply add additional component parts, such as, but not limited to, 80 connected by post connectors and increase the size and volume for holding coins, trinkets, stones, shells, jewelry, candy, or other things. The savings device is expandable, portable, and easily opened and closed.

FIG. 12 shows the addition of a spinner 512 to the Swivel-Snaps invention. The spinner, which can include bearings and/or weights, can be connected to a faceplate 84, a post connector 10, and/or a component part such as a square 80, or any shape. The connection can be anywhere on any element in Swivel-Snaps. For example, in FIG. 12, the spinner 512 is shown attached to the end of a post connector 10, and also to the mid-section, the connector guide in that particular figure. The spinner can be connected at any angle as well with respect to any Swivel-Snaps element. The spinners can be pre-connected in the production process to any such element, or they can be connectable to any such element by the end user via any suitable connection mechanism. That is, the spinners can be attached to, integral with, or attachable to any Swivel-Snaps element, including, but not limited to, component parts of any shape and size, post connectors, and faceplates. They can be attachable anywhere on any of those elements, at any angle. The term “fidget spinner” as used herein in the broadest sense can refer to any type of spinning device that is attachable, via any means, method, and/or mechanism to any Swivel-Snaps element.

FIG. 13 shows studs 602 (male) and holes (or cups) 604 (female) of the Lego design incorporated into Swivel-Snaps elements. In the figure, these elements are faceplates 584, 570; component parts 580, 530; and post connectors 510, 512, 514, 516. This allows joint constructions to be made that comprise both Swivel-Snaps and Lego elements. The Lego studs and holes (or cups) can be anywhere on any Swivel-Snaps element, in any number, and at any orientation, although a preferred alignment is to have such studs and holes (cups) in one or more rows, comprising at least two studs and two holes in a row. The term “Lego” when used herein with regard to connection mechanism, design, studs, and/or holes refers to studs, cups into which said studs are inserted, and/or holes into which said studs are inserted, wherein the studs may be (in a preferred embodiment, but not necessarily are) cylindrical, or quasi-cylindrical, in shape and aligned in one or more rows, such as those shown in FIGS. 13, 14, and 15. The present invention comprises any means, method, device, and/or mechanism that permits connecting any Swivel-Snaps element to such Lego type construction element by incorporating connection mechanism(s) or device(s) of said Lego type construction element (such as studs, cups, or holes) on, or into, a Swivel-Snaps element. The word “hole” used in such context can, alternatively, mean “cup” or “insertable section/piece/part/element” or “female section/piece/part/element”, and in fact, any of those terms may be used interchangeably with any other and still comprise the present invention. The word “stud” used in such context can mean a pole, rod, knob, disk, bump or any other type of male element. The word “cup” can mean a cylindrical or other shape piece, at least partially hollow, into which a stud is inserted in order to make a connection. The term “Lego type” can refer to connection types other than those specifically and commercially known as Lego. Or it can refer to the specific, commercial Lego connection type, if so defined explicitly.

In FIG. 14 several options for integrating Swivel-Snaps with commercially available toy construction systems are shown. These permit Swivel-Snaps users to build joint structures/objects with other toy systems. Examples shown include Duplo female 614 and male 612 connectors on Swivel-Snaps faceplates 684; Bristle Block connectors 702 on Swivel-Snaps faceplates 784; K′Nex, male 802 and female 804 connectors on Swivel-Snaps faceplates 884; Lego male 602 and female 604 connectors, and magnetic faceplate inserts 984. K′Nex connections have a male portion comprising a rod with a lip (indention, cutout, ledge) at the end allowing the rod to form a sturdy connection with the female portion. Bristle Block connections have an array of bristles (male portion) where the female portion is between the male bristles. Connections for Lincoln Logs are also comprised by the present invention. Although FIG. 14 explicitly shows faceplates, the integrations with other toy construction systems that is described can also be built directly into a component part without a faceplate. The present invention comprises any means, method, device, and/or mechanism that connects any Swivel-Snaps element to another (additional) type of construction element by incorporating connection mechanism(s) of said other type of construction element on, or into, a Swivel-Snaps element (post connector, component part, faceplate, figurine, or other element). The additional (another) type of construction element, may be, but is not limited to, a block, figurine, geometric shape, letter, number, picture, or drawing, and is connectable to any other element, such as, but not limited to a post connector or a component part or a faceplate, with a connection mechanism comprising male and female portions that may, or may not, be aligned in one or more rows.

Enabling users to play with Swivel-Snaps and their existing (and future) toys is important. Extending the Swivel-Snaps faceplate to accomplish connections with these other toys is the essence of this invention. There are countless combinations, and space prohibits recounting all of them, but they all stem from the same basic inventive concept . . . build Swivel-Snaps faceplates that incorporate one or more of the fastener elements from a given external toy system (e.g., Lego, K′Nex, Duplo, Velcro, Lincoln Logs, magnetic toys, etc.) These faceplates can be built to support male or female or both connection types. These faceplates may, or may not, compromise the original Swivel-Snaps traditional functionalities. Although square faceplates and component parts are shown in FIG. 14, the invention comprises all possible shapes of such elements. Compatibility with other construction sets is a big advantage of the present invention.

FIG. 15 shows partial (half or otherwise) Swivel-Snaps component parts 584, 586, 886 that have connectability with other Swivel-Snaps components on one, or only some, edges, and otherwise may be connected to other construction set elements. Any of these component parts may be partial (less than full), or half the typical Swivel-Snaps component part. It may sometimes be valuable to only expose the Swivel-Snaps connection elements on one, or a few, side(s) of a component part. Some such cases, when working with another toy set (Lego, K′Nex, etc), are shown in FIG. 15 . This is applicable to all Swivel-Snaps elements, including, but not limited to, component parts, post connectors, and faceplates. Fasteners and component parts can be inline, perpendicular, or set at any angle. Elements such as those shown in FIG. 15 allow unique types of constructions not otherwise feasible.

FIGS. 16 to 20 depict embodiments of the Swivel-Snaps invention having a connector 610 with rails 614 upon which component parts such as a square 80 (but not limited to a square) can be attached such that the component parts either become fixed to the rails, or alternatively, are able to slide along the rails (see arrow in FIG. 17). While only a single rail 614 is comprised by the invention, any number is also comprised by the invention. The preferred embodiment has two rails 614 as in FIG. 16.

FIGS. 16 to 20 show connectors without connector guides 16 (see FIG. 1) but embodiments with connector guides on connector 610, as well as any other connector with rails such as, but not limited to, 612, 614, 618, 620, are also comprised by the invention.

FIG. 18 illustrates one non straight possibility 612 for the connector with rails. Looking down from the top, as the views are in FIG. 19, any possible shape for the connector is comprised by the invention. Just some of these shapes for connectors 610, 612, 618, 620 are rails 614 are shown in FIG. 19. Other possible shapes include, but are not limited to, circular, triangular, square, strip, alphabet letters, numbers, symbols, stepped, pentagon, hexagon, octagon, any regular or irregular polygon, and more. Another is that of a Mobius strip. In general, the invention comprises any configuration with rails on a connector. The rails and connector can be formed into any desirable shape.

FIG. 20 shows one configuration, of many possible configurations, of a railed connector 611 in which cylindrical (or other non circular cross section) posts are used to hold the rails, rather than the continuous configurations of FIGS. 16, 17, 18, and 19. This embodiment would save material cost. Note that any configuration of connector at all that has rails upon with Swivel-Snaps component parts or faceplates may be connected and either fixed or slid comprises the invention. The rails do not have to be continuous around an entire connector, but can comprise one or more discrete sections that do not surround a connector.

All of the remarks made herein with regard to component parts being connected with rails also hold for faceplates being connected to rails. All rails may be attached to, attachable to, or integral with a post or the main part of a connector body, a faceplate, or another component part. That is, in addition to the embodiments shown with rails as part of connectors, the rails may also be part of a faceplate or another component part. Component parts in any embodiment any shape and not just that of the square shown in FIGS. 16 and 17.

The inclusion of rails 614 in the Swivel-Snaps invention enables additional building opportunities such as, but not limited to, incorporation with trains and roller coasters.

FIG. 21 displays an embodiment of the invention with a block 550 mounted inside a component part 80 wherein the block does not interfere with post connectors that would attach to the component part. The block 550 may be shaped such that its end fits snugly inside the component part 80. This configuration provides strength to assemblies due to the inherent strength of the block. It can carry significant loading. In one configuration, the block may have a wheel axle attachable to, attached to, or integral with it. This would allow for car/truck/train/other shells made of Swivel-Snaps to hang from a robust block chassis. The component part into which the block 550 is mounted does not have to be a square 80, but may be a triangle, other polygon, or any suitable shape.

FIG. 22 shows several unique Swivel-Snaps faceplates. Faceplate 570 is made of Velcro or has Velcro attached, or attachable to, it. This will enable unique attachment scenarios. For example, a fabric flame trail that attaches via Velcro to the bottom of a Swivel-Snaps rocket ship construction.

Faceplate 572 has a “scratch and sniff” surface. One scratches the surface, and the faceplate emits a smell. Faceplate 576 has a hole in it that receives a post connector's ball end 20. (See FIG. 10.) This allows for ball joint assemblies that have a wide range of motion yet still ‘snap’ into place. Swivel-Snaps with the features of FIG. 22 will appeal to sight, sound, touch, and smell. In addition to embodiments of unique faceplates shown in FIG. 22, other configurations comprised by the invention are faceplates of, or containing, chalk board surface, paint surface, sticker surface, lenticular surface, mirror surface, and/or white board surface. Additionally, a component part may have any of the features described herein for a faceplate.

Although FIG. 22, and other figures, show a particular shape of component part (square 80 in FIG. 22, for example), all embodiments herein described for one particular shape component part are applicable to component parts and faceplates of all possible shapes and sizes. Further all embodiments comprise post connectors (and elongated connectors such as shown in FIGS. 16 to 20) with, or without, connector guides 16. (See FIG. 1.)

FIG. 23 shows a Swivel-Snaps component part 80 with a faceplate having a built-in magnifying glass, i.e., a lens 590. The lens can be attached to, attachable to, or an integral part of the faceplate, or it may be the faceplate itself is a lens. User can thereby inspect object under magnification inside or outside structures they build. Using such lens configurations as shown in FIG. 23, or otherwise, users can build microscopes or telescopes out of Swivel-Snaps elements.

FIG. 24 illustrates incorporation of art supplies such as a crayon, pen, pencil, felt tip marker, or paint brush 594 into a post connector 592. The post connector 592 may be filled with crayon, pencil, pen, marker, paint, or the like material. The centers could be exposed by spinning the post connector, by mimicking the common spring loaded pen or mechanical pencil designs. Users can snap together a shape then extend the drawing tips so they can draw 1 to N lines at a time and the lines will remain perfectly parallel. Or the user could use the design to draw an arc 596 as the pen tip 594 rotates around a post connector. Or as shown in the right hand side of FIG. 24, the disk of the post connector 592 could have marker material, ink, or similar that draws a line (an arc in the figure) as it is rotated.

Art supplies, such as those mentioned above and others, can also be incorporated into faceplates or component parts. Additionally, such art supplies can be attached to, attachable to, or integral with a post connector, faceplate, and/or component part.

In FIG. 25 the faceplate 680 is made of fabric or elastic material that will enable trampoline, catapult, slingshot, and/or basketball shooting game functionality to Swivel-Snaps. The fabric can have a string or other material/object sewn to the center of it to form a pull strap 682 so the user can pull on the elastic fabric. This creates a mini trampoline/slingshot for users to attack castles or other structures (made of Swivel-Snaps or not); to bounce marbles, balls or other things off of; act as a trampoline for dolls or other figures; shoot baskets; be a “carnival type” game; and more. Leveraging the swiveling post connector, the user could alter the launch angle until they hit their target. In larger component parts they may actually be trampolines for kids Elastic material is attached to, or attachable to, a component part wherein when connected, an object such as a ball or marble may be propelled by pulling back and releasing the elastic material, or said object may be bounced off of the elastic material.

A double size component part 632 is shown in FIG. 26. This has the same effective width as the edge of a square component part 80, but a length that is effectively twice that of a square component part edge. It can accommodate two post connectors 10 on the long edge, and therefore connect two component parts, such as, but not limited to, the square 80 along that long edge. Such a double size component part has more strength than two single size component parts 80 connected together via a post connector 10. Of course, any shape component parts, not just the square shape, can be connected along the long edge of 632.

Additionally, a double size component part may be formed using the shape(s) of any one or two single component parts, not just that of the square shape. For example, a solid double triangle, i.e., a parallelogram, may be formed that has two 60° angle corners, and two 120° angle corners. As other examples, such a double component part could be formed based on two triangular shapes that are other than equilateral. As still other examples, double component parts could be formed from combinations of shapes such as hexagons, pentagons, squares, triangles, and other polygons. The component parts do not have to be of the same type. For example, a double component part could be formed from a triangle 30 and square 80, or from any other two different types of component parts. A double size component part essentially has one edge that can connect to two post connectors 10.

Triple, quadruple, and larger size component parts can be made based on any number of single component part shapes. The defining characteristic of a multiple size component part is that is can connect with more than one post connector 10 on at least one edge.

FIG. 27 illustrates a gear 640 which can be used with Swivel-Snaps constructions, such as that shown in the top of the figure. This can enable motion and/or provide drive. In the image, End A can be connected to End B to form a 3D belt/loop/chain. One can then place the keys of a Swivel-Snaps compatible gear 640 into the square component part 80 center voids. This can enable users to design moving creations, mobile structures, vehicles. It could be powered by a hand crank attached to the gear or by attaching a motor to the gear. Other shape component parts, other than squares 80 may be used as well.

Triangles 650 are added to the corners of a Swivel-Snaps construction in FIG. 28. These can provide additional strength and support to structures. The triangle 650 in FIG. 28 is a right isosceles triangle, which should be the most commonly needed type for strengthening structures, but any suitable triangle shape that can be used for such support is comprised by the invention. This type of triangle increases the possible types of constructions that can be built.

FIG. 29 shows a periscope built using Swivel-Snaps elements and a faceplate polyhedron 660 with a mirror on one side. With two such faceplates 660 one can align them inside a Swivel-Snaps created passageway, or tube, with right angles as shown in FIG. 29. That is, the mirrored faceplates 660 can be placed such that incident light on the first of them is reflected to the second of them, and typically then into a viewer's eye(s). The mirror faceplate 660 can have an essentially triangular cross section in the plane of travel of the light beam as shown in FIG. 29, although any suitable shape is comprised by the invention. The mirror face can be essentially square or rectangular, though again, any suitable shape is comprised by the invention. Flat mirrors can be used for best periscope type results. Curved (convex or concave) can be used to enlarge (as in a telescope) or reduce images. Distorted shape mirrors, such as but not limited to rippled mirrors, can be used for fun house type image viewing. The angles in the Swivel-Snaps passageway, or tube, do not have to be right angles, but can be of any degree.

FIG. 30 illustrates the incorporation of a separate tube 672 into a Swivel-Snaps construction of component parts 80 (or any other shapes of component parts) and post connectors 10. By doing this, users can put a ball, marble 670, toy car, or other object in one end, typically the upper end, and the object (ball or marble 670 in FIG. 30) can come out the other end. The tube 672 could instead be a chute, ramp, rail, tethering line, zip line, or any other means to guide the object along, through, or beside a Swivel-Snaps construction. Typically, gravity will pull the object downward, but any other means to propel or pull the object is comprised by the invention, as well.

A clamp 674 or other fastener by which the tube or other means for guidance of the object can be fastened may be attached to, attachable to, or integral with a component part 80, such as that shown in FIG. 30. Such clamps or other fasteners can also be attached to, attachable to, or integral with any other Swivel-Snaps element, such as a post connector or a faceplate or any other shape component part. Typically, the tube or other means for guidance would snap into the clamp 674 or other fastener.

FIG. 31 shows parts 925, 930, 935 that can be assembled to permit attachment of a wheel 925 to any component part (such as, but not limited to a square 80 or triangle 30) or any structure considered or implied herein. The wheel itself 925 can be of any style, design, and/or function and is not restricted to the particular design shown in FIG. 31, although that is the preferred embodiment. That embodiment has ribs or spokes 928 and a rim 927. The center of the wheel comprises a means (such as 926 in this embodiment) to connect the wheel component to a shaft, axle, or assembly 930, and that shaft/axle/assembly has a means to connect to a faceplate 935. In the embodiment shown, the means to connect the wheel 925 to the shaft/axle/assembly comprises a hollow shaft 926 in the center of the wheel 925 into which the rod/shaft/axle 931 can be inserted. A part of the shaft/axle/assembly 932 can help to hold the rod/shaft/axle 931 in the hollow shaft 926. This may be of any suitable design. The invention comprises any means (structural or otherwise) to connect a wheel to a component part.

In the embodiment shown in FIG. 31, the means to connect to a faceplate 935 is an insert 934 that inserts into an opening, hole, cutout 936, or hollow section in the faceplate 935. The design may be such that a twisting motion around the axis of the rod/shaft/axle 931 tightens the shaft/axle/assembly 930 into the faceplate 935, but this is not necessary for the functioning of the invention. Any means to attach the shaft/axle/assembly 930 into the faceplate 935 is comprised by the invention. The faceplate 935 can be attached to a component part, such as the square 80 shown in FIG. 32. Although a square faceplate 935 fitting into a square 80 is shown in the figures, any shape faceplate attached to any shape component part is comprised by the invention.

Views perpendicular to the rod/axle/shaft 931 from the side of the faceplate 935 and the side of the wheel 925 are shown in FIG. 33. Although that and other figures show an “S” shape for the connection between the shaft/axle/assembly 930 and the faceplate shaft/axle/assembly 935, any such shape and any suitable connecting means is comprised by the invention. FIG. 34 shows a typical vehicle constructed out of triangle component parts 30 and square component parts 80 employing the present wheel assembly invention with wheels 925.

The invention comprises a wheel that may be attachable to (or an integral part of) a shaft, axle, or assembly wherein that shaft, axle, or assembly may be attachable to (or an integral part of) a faceplate, and wherein that faceplate may be attachable to (or an integral part of) a component part. Note that although particular parts 925, 930, 935, and 80 are shown as attachable to one another in the figures, Any two or more of such parts may be integral with one another rather than attachable to one another. In fact, the entire assembly shown in FIG. 33, other than the post connectors 10, may be integral, i.e., all of a single piece. However, embodiments in which the wheel may rotate relative to the component part (such as a square 80 or a triangle 30) are more practical embodiments of the invention.

The invention comprises any means or method by which a wheel or wheel assembly may be attached to a component part such that vehicles with one or more wheels may be constructed from component parts, at least one wheel, and possibly other components. It also comprises the wheel as a spinner or carousel, in which it is not necessarily part of a vehicle.

FIG. 35 shows a partial spherical section 915 which may be used to construct a spherical, nearly spherical, essentially spherical, quasi-spherical, or approximately spherical shape. The term quasi-spherical is one way to describe shapes such as the one shown in FIG. 38 for which some sections (sections where the post connectors 10 are in the figure) are not part of spherical surface, but most of the rest of the object is comprised of sections that are portions of a spherical surface. The surface 916 is essentially a portion of a spherical surface. The “S” FIG. 917 on the surface shown in the figure is not a requirement of the invention, but merely a design intended for a particular production run of the invention. In the preferred embodiment shown, insert 918 fits inside of a square component part 80 and holds, or helps to hold, the partial spherical section 915 in the square component part. See FIG. 36. Edge 919 typically meets along the edge of the square component part, but that is not a requirement of the invention (although it is part of the preferred embodiment shown.)

FIG. 37 shows one partial spherical section 915 attached to a cube made of square component parts 80 and post connectors 10. FIG. 38 depicts a near, effective, essential, quasi-, or approximate, sphere made from the cube of component parts 80 and post connectors 10 with six partial spherical sections 915 attached to the component parts.

A specific embodiment (the preferred embodiment) of the invention is shown in FIGS. 35 to 38, but the invention is not restricted to that particular embodiment. Any means or method whereby partial spherical sections may be attached to component parts and a sphere, or approximation to a sphere, may be constructed is comprised by the invention.

FIGS. 39 and 40 display a construction figurine 900 in the general form of a human, which may be attached to one or more post connectors 10. The construction figurine has arms 902 and legs 904. In the (preferred) embodiment shown, each arm has pivots 906 at the shoulder, pivoting elbows 903, and hands 908. Each leg has pivots at the hip 907, pivoting knees 905, and feet 910. The figurine has a head 911 and a torso 901.

Pivots at any of the shoulders, elbows, hips, knees (906, 903, 907, and 905, respectively) may be comprised of pins inserted into arm or leg sections, around which each arm or leg section may rotate, as is well known to those in the art. However, any suitable means (not constricted only to pins) for pivoting is comprised by the invention. For example, the pivoting could be achieved by mating sections of each arm or leg that, upon mating, allow swiveling without a pin. Such swivel mating of parts by various means is well known in the art. Pivoting elbows 903 and knees 905 are part of the preferred embodiment, but are not a required part of the invention. Pivoting of arms 902 and legs 904 are also part of the preferred embodiment, but are not a required part of the invention. The construction figurine 900 may simply be without pivot sections, yet have a form similar to a human or animal.

A hand 908 can be attached by a user to a post connector 10, and a foot 910 can be as well. In the preferred embodiment shown, the hands and feet are similar and comprise cutouts at the ends of the arms or feet, or equivalently, two extensions on either side of each arm or leg. These cutouts (or extensions) fit over the disk 14 (or component part connecting element) snugly so the arm or leg, and thus the entire construction figurine 900 may be attached to post connector 10. The means for connecting hands and feet to post connectors shown is part of the preferred embodiment, but any such means is comprised by the invention.

FIG. 41 shows a construction figurine 900 with a post connector 10 attached to its hands 908 and about to connect the same post connector to a structure with component parts 80. FIG. 42 shows a construction figurine 900 attached to the disk (or component part connecting element) 14 of a post connector which is also connected to a component part of a structure made of component parts (and post connectors).

FIG. 43 displays a construction figurine attached to a structure (below the construction figurine) of component parts 80 and a post connector 10 via its feet 910, and simultaneously attached to a component part 30 (above and which could be part of a larger structure not shown) via its feet 908 and the disk 14 of a post connector 10. Thus, the construction figurine 900 can be used not merely as a decorative item, but as a structural component in building assemblies. It has utility. Because it can connect to more than one post connector and thus more than one component part or substructure, it can itself be an element used in the construction process and as part of final assembled constructions. The figurine has arms and feet attachable to the component part connecting element of the post connector, wherein such attachment provide structural strength and allows construction of additional types of construction assemblies.

Although a human form is shown for the construction figurine 900, the invention also comprises the form of any animal with two feet and two arms, four feet, or (hypothetically) four arms. It also comprises means for connection via the hands and feet to different substructures via faceplates or component parts, rather than just via post connectors.

Thus, the invention comprises a construction figurine, of human, animal, or other form, whose hands and feet can connect with post connectors, component parts, faceplates, and/or different substructures to build structural assemblies, and thus act as a structural element in such assemblies. It is also comprised simply of feet 910 that may connect to post connectors, component parts, faceplates, and/or different substructures without hands 908 being able to do so Likewise, it is also comprised simply of hands 908 that may connect to post connectors, component parts, faceplates, and/or different substructures without feet 910 being able to do so. In such cases, one foot (hand) could connect to one part of a post connector, component part, faceplate, and/or different substructure and the other foot (hand) could connect to another such part. By so doing the construction figurine would have the utility of being a construction element in a construction assembly.

FIG. 44 shows a building made of component parts (30 and 80), post connectors 10 and additional elements including a chimney 942, windows 940, and a door 941 The additional elements can be attached to component parts, faceplates, or post connectors. This can be in similar fashion to the partial spherical sections 915 of FIGS. 35 to 38, the wheels of FIGS. 31 to 35, the figurines of FIGS. 39 to 43, or via any other means.

FIG. 45 shows a chameleon made from component parts, post connectors, a head 944, feet 946, and a tail 945, where the latter three are toy parts of the animal and may be attached via any of the means discussed for FIG. 44.

FIG. 46 displays a caterpillar made from component parts, post connectors, antenna 947, feet 949, and arms 948, where the latter three are toy parts of the animal and may be attached via any of the means discussed for FIG. 44.

FIG. 47 illustrates a chicken made from component parts, post connectors, a head 950, wings 952, and a tail 951, where the latter three are toy parts of the animal and may be attached via any of the means discussed for FIG. 44.

FIG. 48 shows an airplane model constructed from component parts, post connectors, a pilot control section 954, wings 955, and a tail 956, where the latter three may be attached via any of the means discussed for FIG. 44.

Although the figures show much detail, such details are not essential to the invention. The drawings merely show special cases, or embodiments, of the invention. The essential elements of the invention are recited in the claims.

Wherever herein the present invention is referred to as comprised in part of “Swivel-Snaps”, that term is interpreted to mean the invention described in WO 2011/143019, PCT/SU2011/035107, U.S. Pat. No. 9,669,324, and other daughter/sister patents and patent applications in the USA and elsewhere. Language, definitions, and terms used in those patents and patent applications are applicable to, relevant to, and interpretable in the context of the description and claims herein.

In particular, the term Swivel-Snaps, in its preferred embodiment, is equivalent to a structural assembly device comprising. a) a component part having predetermined shape and a post connector connecting element, and b) a post connector comprised of a post and a component part connecting element wherein said component part connecting element is structurally connected to said post by any means, including being integral with said post, wherein at least part of said component part connecting element is substantially displaced radially from a central axis of the post, wherein said at least part of said component part connecting element is connectable directly with said post connector connecting element, such that when connected, said at least part of said component part connecting element contacts said post connector connecting element, wherein said post connector and a plurality of said component parts may be mechanically connected in an angular direction around the post via said component part connecting element and a plurality of said post connector connecting elements to form a structure, such that, when connected, said component parts can swing independently relative to the post about said central axis of the post,

One use for the invention described in this patent application is as a “toy, but the invention is not limited to toys, and is applicable to any and all structural, and/or other, uses.

This invention can thus be seen to have significant, novel advantages over the prior art delineated in the above “Description of Prior Art” section.

While the above description contains many specificities, the reader should not construe these as limitations on the scope of the invention, but merely as exemplifications of preferred embodiments thereof. Those skilled in the art will envision many other possibilities that are within its scope.

Accordingly, the scope of the invention should be determined not by the embodiments described, but by the appended claims and their legal equivalents. 

We claim:
 1. A structural assembly device comprising. a) a component part having predetermined shape and a post connector connecting element, and b) a post connector comprised of a post and a component part connecting element wherein said component part connecting element is structurally connected to said post by any means, including being integral with said post, wherein at least part of said component part connecting element is substantially displaced radially from a central axis of the post, wherein said at least part of said component part connecting element is connectable directly with said post connector connecting element, such that when connected, said at least part of said component part connecting element contacts said post connector connecting element, wherein said post connector and a plurality of said component parts may be mechanically connected in an angular direction around the post via said component part connecting element and a plurality of said post connector connecting elements to form a structure, such that, when connected, said component parts can swing independently relative to the post about said central axis of the post, and wherein an additional element, such as but not limited to a block, figurine, geometric shape, letter, number, picture, or drawing, is connectable to any other element, such as but not limited to the post connector or component part, with a connection mechanism comprising male and female portions.
 2. The structural assembly device of claim 1 further comprising a facemount of predetermined shape and size wherein said facemount is attached to, or attachable to, said component part, and the additional element may be connected by the connection mechanism to said facemount.
 3. The structural assembly device of claim 1 wherein the additional element may be connected by the connection mechanism to the component part.
 4. The structural assembly device of claim 1 wherein the additional element may be connected by the connection mechanism to the component part and the connection mechanism comprises the male and female portions aligned in one or more rows wherein the male portions comprise cylinders, rods, or disks.
 5. The structural assembly device of claim 1 wherein the additional element may be connected by the connection mechanism to the post connector.
 6. The structural assembly device of claim 1 wherein the male and female portions are aligned in one or more rows.
 7. The structural assembly device of claim 1 wherein the male and female portions are aligned in one or more rows, and the male portions comprise cylinders, rods, bristles, or disks.
 8. The structural assembly device of claim 1 wherein the male and female portions are aligned in one or more rows, and the male portions comprise cylinders.
 9. The structural assembly device of claim 1 wherein the male portion comprises a cylinder, a rod, or a disk with an indention, cutout, ledge, or lip allowing said indention, cutout, ledge, or lip to form a sturdy connection between the male portion and the female portion.
 10. The structural assembly device of claim 1 further comprising a facemount of predetermined shape and size wherein said facemount is attached to, or attachable to, said component part, the additional element may be connected by the connection mechanism to said facemount, and the connection mechanism comprises the male and female portions aligned in one or more rows.
 11. The structural assembly device of claim 1 further comprising a facemount of predetermined shape and size wherein said facemount is attached to, or attachable to, said component part, the additional element may be connected by the connection mechanism to said facemount, and the connection mechanism comprises a single male portion and a single female portion wherein the male portion is effectively a cylinder.
 12. The structural assembly device of claim 1 further comprising a facemount of predetermined shape and size wherein said facemount is attached to, or attachable to, said component part, the additional element may be connected by the connection mechanism to said facemount, and the connection mechanism comprises the male and female portions aligned in one or more rows wherein the male portions are cylinders, rods, or disks.
 13. The structural assembly device of claim 1 wherein the component part connecting element has a non-circuclar cross section perpendicular to the central axis of the post.
 14. The structural assembly device of claim 1 further comprising elastic material attached to, or attachable to, a component part wherein when attached, an object such as a ball or marble may be propelled by pulling back and releasing the elastic material, or said object may be bounced off of the elastic material.
 15. The structural assembly device of claim 1 further comprising a lens attached to, or attachable to, a faceplate or component part.
 16. The structural assembly device of claim 1 wherein at least one component part has a rectangular shape permitting two post connectors to be attached to said component part.
 17. The structural assembly device of claim 1 further comprising a writing instrument, such as a pen, pencil, or crayon, man be attached to a post connector or component part.
 18. The structural assembly device of claim 1 further comprising a block mounted, or mountable, inside a component part.
 19. The structural assembly device of claim 1 further comprising Velcro attached, or attachable, to a faceplate.
 20. The structural assembly device of claim 1 wherein at least one faceplate has a scratch and sniff surface.
 21. The structural assembly device of claim 1 further comprising a gear about which a chain of component parts can be connected.
 22. The structural assembly device of claim 1 further comprising mirrors attachable to post connectors or component parts to enable seeing around an object such as a wall.
 23. The structural assembly device of claim 1 further comprising a tube attachable to, or insertable within, the structure through which balls or other objects may pass.
 24. The structural assembly device of claim 1 further comprising a wheel assembly connected, or connectable, to a faceplate, wherein the wheel assembly comprises a hollow shaft in the center of the wheel and an axle, insertable, or inserted into, the hollow shaft on one end and inserted, or insertable, into an opening in the faceplate on the other end.
 25. The structural assembly device of claim 1 further comprising sections of a sphere wherein such sections are attachable to faceplates, component parts, or post connectors.
 26. The structural assembly device of claim 1 wherein the additional element is a figurine and said figurine has arms and feet attachable to the component part connecting element of the post connector, and wherein such attachment provides structural strength thereby allowing construction of additional types of construction assemblies.
 27. The structural assembly device of claim 1 wherein the additional element is a toy part of an animal.
 28. The structural assembly device of claim 1 wherein the additional element is a toy part of an airplane. 